МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ

Mechanism of uneven chemical etching of quartz insulating covering layer (SiO 2) in the etching windows over outflow sites of magnetoresistive sensors in a plate with ICs chips (Integrated Circuits) was studied. A reason why a significant difference in the rate of SiO 2 etching over the northern (N)...

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Main Authors:	Нецветов, В., Медведев, Ю., Щиголев, В., Коссе, А., Хиженков, П.
Format:	Text
Language:	unknown
Published:	Институт прикладной физики Академии наук Молдовы 2010
Subjects:	North Pole
Online Access:	http://cyberleninka.ru/article/n/magnitohimicheskie-osobennosti-izgotovleniya-magnitorezistivnyh-datchikov-v-integralnyh-mikroshemah http://cyberleninka.ru/article_covers/15453411.png

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spelling	ftcyberleninka:oai:cyberleninka.ru:article/15453411 2023-05-15T17:39:52+02:00 МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ Нецветов, В. Медведев, Ю. Щиголев, В. Коссе, А. Хиженков, П. 2010 text/html http://cyberleninka.ru/article/n/magnitohimicheskie-osobennosti-izgotovleniya-magnitorezistivnyh-datchikov-v-integralnyh-mikroshemah http://cyberleninka.ru/article_covers/15453411.png unknown Институт прикладной физики Академии наук Молдовы text 2010 ftcyberleninka 2015-11-03T00:49:42Z Mechanism of uneven chemical etching of quartz insulating covering layer (SiO 2) in the etching windows over outflow sites of magnetoresistive sensors in a plate with ICs chips (Integrated Circuits) was studied. A reason why a significant difference in the rate of SiO 2 etching over the northern (N) and south (S) magnetic poles induced in the strip sensors during plasma deposition of magnetoresistive layer (iron-nickel alloy in the ratio of Fe 18%, Ni 82% in t a plasma spraying setup UPR-1) is analyzed. A mechanism of not full etching of SiO 2 windows over the north pole of magnetoresistive sensor is revealed. It leads to through-etching of permalloy layer. The reason for this is significant contribution of interaction energy of the magnetic moment of the molecule etchant of hydrofluoric acid HF with scattering magnetic field of the magnetoresistive sensor. The resultant magnetochemical mechanism of interaction between HF and SiO 2 leds to increased chemical interaction of F-HF in molecule over the southern pole of the sensor. This leads to etching of permalloy layer in the southern output areas of the sensors of all the chip plates. Mechanism of uneven chemical etching of quartz insulating covering layer (SiO 2) in the etching windows over outflow sites of magnetoresistive sensors in a plate with ICs chips (Integrated Circuits) was studied. A reason why a significant difference in the rate of SiO 2 etching over the northern (N) and south (S) magnetic poles induced in the strip sensors during plasma deposition of magnetoresistive layer (iron-nickel alloy in the ratio of Fe 18%, Ni 82% in t a plasma spraying setup UPR-1) is analyzed. A mechanism of not full etching of SiO 2 windows over the north pole of magnetoresistive sensor is revealed. It leads to through-etching of permalloy layer. The reason for this is significant contribution of interaction energy of the magnetic moment of the molecule etchant of hydrofluoric acid HF with scattering magnetic field of the magnetoresistive sensor. The resultant magnetochemical mechanism of interaction between HF and SiO 2 leds to increased chemical interaction of F-HF in molecule over the southern pole of the sensor. This leads to etching of permalloy layer in the southern output areas of the sensors of all the chip plates. Text North Pole CyberLeninka (Scientific Electronic Library) North Pole
institution	Open Polar
collection	CyberLeninka (Scientific Electronic Library)
op_collection_id	ftcyberleninka
language	unknown
description	Mechanism of uneven chemical etching of quartz insulating covering layer (SiO 2) in the etching windows over outflow sites of magnetoresistive sensors in a plate with ICs chips (Integrated Circuits) was studied. A reason why a significant difference in the rate of SiO 2 etching over the northern (N) and south (S) magnetic poles induced in the strip sensors during plasma deposition of magnetoresistive layer (iron-nickel alloy in the ratio of Fe 18%, Ni 82% in t a plasma spraying setup UPR-1) is analyzed. A mechanism of not full etching of SiO 2 windows over the north pole of magnetoresistive sensor is revealed. It leads to through-etching of permalloy layer. The reason for this is significant contribution of interaction energy of the magnetic moment of the molecule etchant of hydrofluoric acid HF with scattering magnetic field of the magnetoresistive sensor. The resultant magnetochemical mechanism of interaction between HF and SiO 2 leds to increased chemical interaction of F-HF in molecule over the southern pole of the sensor. This leads to etching of permalloy layer in the southern output areas of the sensors of all the chip plates. Mechanism of uneven chemical etching of quartz insulating covering layer (SiO 2) in the etching windows over outflow sites of magnetoresistive sensors in a plate with ICs chips (Integrated Circuits) was studied. A reason why a significant difference in the rate of SiO 2 etching over the northern (N) and south (S) magnetic poles induced in the strip sensors during plasma deposition of magnetoresistive layer (iron-nickel alloy in the ratio of Fe 18%, Ni 82% in t a plasma spraying setup UPR-1) is analyzed. A mechanism of not full etching of SiO 2 windows over the north pole of magnetoresistive sensor is revealed. It leads to through-etching of permalloy layer. The reason for this is significant contribution of interaction energy of the magnetic moment of the molecule etchant of hydrofluoric acid HF with scattering magnetic field of the magnetoresistive sensor. The resultant magnetochemical mechanism of interaction between HF and SiO 2 leds to increased chemical interaction of F-HF in molecule over the southern pole of the sensor. This leads to etching of permalloy layer in the southern output areas of the sensors of all the chip plates.
format	Text
author	Нецветов, В. Медведев, Ю. Щиголев, В. Коссе, А. Хиженков, П.
spellingShingle	Нецветов, В. Медведев, Ю. Щиголев, В. Коссе, А. Хиженков, П. МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
author_facet	Нецветов, В. Медведев, Ю. Щиголев, В. Коссе, А. Хиженков, П.
author_sort	Нецветов, В.
title	МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
title_short	МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
title_full	МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
title_fullStr	МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
title_full_unstemmed	МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ
title_sort	магнитохимические особенности изготовления магниторезистивных датчиков в интегральных микросхемах
publisher	Институт прикладной физики Академии наук Молдовы
publishDate	2010
url	http://cyberleninka.ru/article/n/magnitohimicheskie-osobennosti-izgotovleniya-magnitorezistivnyh-datchikov-v-integralnyh-mikroshemah http://cyberleninka.ru/article_covers/15453411.png
geographic	North Pole
geographic_facet	North Pole
genre	North Pole
genre_facet	North Pole
_version_	1766140632264343552

МАГНИТОХИМИЧЕСКИЕ ОСОБЕННОСТИ ИЗГОТОВЛЕНИЯ МАГНИТОРЕЗИСТИВНЫХ ДАТЧИКОВ В ИНТЕГРАЛЬНЫХ МИКРОСХЕМАХ

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